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Pubmed for Handhelds

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Journal Abstract Search

517 related items for PubMed ID: 30316022

  • 1. Effects of bisphosphonate ligands and PEGylation on targeted delivery of gold nanoparticles for contrast-enhanced radiographic detection of breast microcalcifications.
    Cole LE, McGinnity TL, Irimata LE, Vargo-Gogola T, Roeder RK.
    Acta Biomater; 2018 Dec; 82():122-132. PubMed ID: 30316022
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  • 2. Contrast-Enhanced X-ray Detection of Microcalcifications in Radiographically Dense Mammary Tissue Using Targeted Gold Nanoparticles.
    Cole LE, Vargo-Gogola T, Roeder RK.
    ACS Nano; 2015 Sep 22; 9(9):8923-32. PubMed ID: 26308767
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  • 3. Contrast-enhanced X-ray detection of breast microcalcifications in a murine model using targeted gold nanoparticles.
    Cole LE, Vargo-Gogola T, Roeder RK.
    ACS Nano; 2014 Jul 22; 8(7):7486-96. PubMed ID: 24992365
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  • 4. Bisphosphonate-functionalized gold nanoparticles for contrast-enhanced X-ray detection of breast microcalcifications.
    Cole LE, Vargo-Gogola T, Roeder RK.
    Biomaterials; 2014 Feb 22; 35(7):2312-21. PubMed ID: 24360718
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  • 5. Biodistribution of PEG-modified gold nanoparticles following intratracheal instillation and intravenous injection.
    Lipka J, Semmler-Behnke M, Sperling RA, Wenk A, Takenaka S, Schleh C, Kissel T, Parak WJ, Kreyling WG.
    Biomaterials; 2010 Sep 22; 31(25):6574-81. PubMed ID: 20542560
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  • 8. Binding affinity of surface functionalized gold nanoparticles to hydroxyapatite.
    Ross RD, Roeder RK.
    J Biomed Mater Res A; 2011 Oct 22; 99(1):58-66. PubMed ID: 21793197
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  • 10. Evaluation of a nanocomposite of PEG-curcumin-gold nanoparticles as a near-infrared photothermal agent: an in vitro and animal model investigation.
    Rahimi-Moghaddam F, Azarpira N, Sattarahmady N.
    Lasers Med Sci; 2018 Nov 22; 33(8):1769-1779. PubMed ID: 29790012
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  • 13. Simple PEG conjugation of SPIO via an Au-S bond improves its tumor targeting potency as a novel MR tumor imaging agent.
    Kojima H, Mukai Y, Yoshikawa M, Kamei K, Yoshikawa T, Morita M, Inubushi T, Yamamoto TA, Yoshioka Y, Okada N, Seino S, Nakagawa S.
    Bioconjug Chem; 2010 Jun 16; 21(6):1026-31. PubMed ID: 20446679
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  • 14. Bisphosphonate-coated BSA nanoparticles lack bone targeting after systemic administration.
    Wang G, Kucharski C, Lin X, Uludağ H.
    J Drug Target; 2010 Sep 16; 18(8):611-26. PubMed ID: 20158316
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  • 15. Pulmonary fate and consequences of transferrin-functionalized gold nanoparticles.
    Konduru NV, Velasco-Alzate K, Adduri S, Zagorovsky K, Diaz-Diestra D, Fisol F, Sanches M, Ndetan H, Brain JD, Molina RM.
    Nanotheranostics; 2021 Sep 16; 5(3):309-320. PubMed ID: 33732602
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  • 18. Near IR fluorescent conjugated poly(ethylene glycol)bisphosphonate nanoparticles for in vivo bone targeting in a young mouse model.
    Rudnick-Glick S, Corem-Salkmon E, Grinberg I, Yehuda R, Margel S.
    J Nanobiotechnology; 2015 Nov 14; 13():80. PubMed ID: 26577112
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  • 19. PEGylated dendrimer-entrapped gold nanoparticles for in vivo blood pool and tumor imaging by computed tomography.
    Peng C, Zheng L, Chen Q, Shen M, Guo R, Wang H, Cao X, Zhang G, Shi X.
    Biomaterials; 2012 Feb 14; 33(4):1107-19. PubMed ID: 22061490
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  • 20. Targeted drug delivery of near IR fluorescent doxorubicin-conjugated poly(ethylene glycol) bisphosphonate nanoparticles for diagnosis and therapy of primary and metastatic bone cancer in a mouse model.
    Rudnick-Glick S, Corem-Salkmon E, Grinberg I, Margel S.
    J Nanobiotechnology; 2016 Dec 05; 14(1):80. PubMed ID: 27919267
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